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Publication numberUS20070028109 A1
Publication typeApplication
Application numberUS 11/191,133
Publication dateFeb 1, 2007
Filing dateJul 26, 2005
Priority dateJul 26, 2005
Also published asUS7809949, US8214648, US8631241, US20110007895, US20120297199, WO2007014287A1
Publication number11191133, 191133, US 2007/0028109 A1, US 2007/028109 A1, US 20070028109 A1, US 20070028109A1, US 2007028109 A1, US 2007028109A1, US-A1-20070028109, US-A1-2007028109, US2007/0028109A1, US2007/028109A1, US20070028109 A1, US20070028109A1, US2007028109 A1, US2007028109A1
InventorsChristopher Wysocki, Alan Ward
Original AssigneeApple Computer, Inc.
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Configuration of a computing device in a secure manner
US 20070028109 A1
Abstract
In accordance with a broad aspect, a method is provided to securely configure a computing device. A configuration indication is received into the computing device, including receiving a digital signature generated based on the configuration indication. Generation of the digital signature accounts for a unique identifier nominally associated with the computing device. The received configuration indication is verified to be authentic including processing the unique identifier, the received configuration indication and the received digital signature. The computing device is operated or interoperated with in accordance with the received configuration indication. In one example, a service interoperates with the computing device. The configuration indication and digital signature are provided from the computing device to the service, and the service interoperates with the computing device in accordance with the configuration indication and the digital signature. For example, the computing device may be a portable media player, and the service may provide media to the computing device based on a capacity indication of the configuration indication.
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Claims(33)
1. A method of securely configuring a computing device, comprising:
receiving a configuration indication into the computing device, including receiving a digital signature generated based on the configuration indication, wherein generation of the digital signature accounts for a unique identifier nominally associated with the computing device;
verifying that the received configuration indication is authentic including processing the unique identifier, the received configuration indication and the received digital signature; and
operating or interoperating with the computing device in accordance with the received configuration indication.
2. The method of claim 1, wherein:
the verifying step is executed in the computing device.
3. The method of claim 1, wherein:
the received configuration indication, the digital signature and the unique identifier are provided from the computing device to a service in communication with the computing device; and
the verifying step is executed by the service.
4. The method of claim 1, wherein:
processing the unique identifier, the received configuration indication and the received digital signature includes
processing the received configuration indication, in view of an indication of the unique identifier associated with the received configuration indication, to generate a digest;
processing the received digital signature;
processing the generated digest and the unique identifier in view of the processed received digital signature to determine whether the configuration indication is authentic.
5. The method of claim 4, wherein:
the received digital signature is created in association with a provider of the configuration indication, based on a private key of a public/private key pair; and
processing the received digital signature includes applying to the received digital signature a public key of the public/private key pair.
6. The method of claim 5, wherein:
processing the generated digest and the unique identifier in view of the processed digital signature includes
comparing a result of applying to the digital signature the public key to the generated digest; and
comparing the unique identifier nominally associated with the computing device to a unique identifier verified to be associated with the computing device.
7. The method of claim 1, further comprising:
generating the configuration indication and the digital signature by a service, and
providing the configuration indication and the digital signature from the service to the computing device, for the configuration indication and the digital signature to be received by the computing device.
8. The method of claim 7, further comprising:
providing the configuration indication and the digital signature from the computing device back to the service,
wherein interoperating with the computing device in accordance with the received configuration indication includes the service interoperating with the computing device in accordance with the configuration indication provided back to the service.
9. The method of claim 7, further comprising:
performing an action by a user that causes initiation of the configuration indication generating step.
10. The method of claim 9, wherein:
the action by the user is with respect to the computing device.
11. The method of claim 9, wherein:
the action by the user is with respect to the service.
12. The method of claim 11, wherein:
the service includes a user application executing on a client computer and server-based functionality.
13. The method of claim 12, wherein:
the action by the user with respect to the service is an action by the user with respect to the user application executing on the client computer.
14. The method of claim 13, wherein:
the server-based functionality includes commerce functionality to regulate the user application, including regulating whether the user application can generate the configuration indication and the digital signature.
15. The method of claim 14, wherein:
the commerce functionality includes functionality to receive remuneration in exchange for allowing the user application to generate the configuration indication and the digital signature.
16. The method of claim 9, wherein:
the action corresponds to a direct request by a user to request a new or modified configuration.
17. The method of claim 9, wherein:
the action corresponds to a request by a user to perform an action, wherein the action requires a new or modified configuration.
18. The method of claim 10, wherein:
the action by the user with respect to the computing device causes the service to generate the configuration indication and the digital signature.
19. The method of claim 18, wherein:
the computing device is connected to the service via a wireless network.
20. The method of claim 19, wherein:
the wireless network is provided by a wireless carrier; and
the service is provided in cooperation with the wireless carrier.
21. The method of claim 19, wherein:
the computing device has wireless communication functionality;
the wireless network is a network provided by a mobile telephone service provider; and
the service is provided in cooperation with the mobile telephone service provider.
22. The method of claim 1, wherein:
the computing device is configured to operate in a default configuration if the configuration indication and the digital signature are unable to be properly processed.
23. The method of claim 22, wherein:
the configuration indication and the digital signature being unable to be properly processed includes the configuration indication and the digital signature cannot be found on the computing device.
24. The method of claim 1, wherein:
the computing device is configured to look in a first location for the configuration indication and the digital signature; and
the computing device is configured to, if the configuration indication and the digital signature are unable to be properly processed from the first location, look in a second location for the configuration indication and the digital signature.
25. The method of claim 24, wherein:
the computing device is further configured to copy the configuration indication and the digital signature from the second location to the first location and process the configuration indication and the digital signature from the first location.
26. The method of claim 24, wherein:
the configuration indication and the digital signature being unable to be properly processed from the first location includes the configuration indication is not properly authenticated based on the digital signature.
27. The method of claim 24, wherein:
the configuration indication and the digital signature being unable to be properly processed from the first location includes at least one of the configuration indication and the digital signature is not present at the first location.
28. The method of claim 1, wherein:
the configuration indication is a collection of data indicating a configuration of at least some of the operation of the computing device.
29. The method of claim 28, wherein:
the collection of data includes a collection of key/value pairs.
30. The method of claim 29, wherein:
the collection of key/value pairs is defined by a markup language.
31. The method of claim 30, wherein:
the markup language is an extensible markup language.
32. The method of claim 31, wherein:
the extensible markup language is XML.
33. The method of claim 32, wherein:
the collection of data includes a binary encoding of XML.
Description
CROSS REFERENCE TO RELATED APPLICATIONS

This application is related to co-pending application, [Atty. Docket Number APL1P435], entitled “SECURE SOFTWARE UPDATES”, U.S. Ser. No. ______, filed concurrently herewith and incorporated herein by reference for all purposes. This application is also related to U.S. patent application Ser. No. 10/988,054, filed Nov. 12, 2004, and entitled “METHOD AND SYSTEM FOR UPDATING FIRMWARE STORED IN NON-VOLATILE MEMORY” [Atty. Docket No.: APL1P327], which is hereby incorporated herein by reference for all purposes.

TECHNICAL FIELD

The present invention is in the field of utilizing a service to configure a computing device and, in particular, relates to using the service to configure the computing device in a secure manner such that the computing device may be operated or interoperated with in accordance with the configuration.

BACKGROUND

It is known to interoperate computing devices in conjunction with a service. For example, a portable media player may operate in conjunction with a “service” that includes a client computing device operating a media management application, and the media management application may operate in conjunction with service-based functionality such as a media store and, possibly, a related commerce function. This is the general architecture in which iPod media players operate.

It is desirable to be able to securely configure the operation of the computing device.

SUMMARY

In accordance with a broad aspect, a method is provided to securely configure a computing device. A configuration indication is received into the computing device, including receiving a digital signature generated based on the configuration indication. Generation of the digital signature accounts for a unique identifier nominally associated with the computing device. The received configuration indication is verified to be authentic including processing the unique identifier, the received configuration indication and the received digital signature. The computing device is operated or interoperated with in accordance with the received configuration indication.

In one example, a service interoperates with the computing device. The configuration indication and digital signature are provided from the computing device to the service, and the service interoperates with the computing device in accordance with the configuration indication and the digital signature. For example, the computing device may be a portable media player, and the service may provide media to the computing device based on a capacity indication of the configuration indication.

BRIEF DESCRIPTION OF FIGURES

FIG. 1 illustrates an architectural overview of a system including a computing device and a service.

FIG. 2 provides more detail of the interaction between the computing device and the service illustrated in FIG. 1.

FIG. 3-1 describes processing associated with the service and usable to create the signed configuration file, as well as processing usable to authenticate the absence of tampering with the configuration file.

FIG. 3-2 describes processing associated with the computer device and/or the service to authenticate the absence of tampering with the configuration file.

FIG. 4 illustrates an example high-level processing flow, with respect to the service, to accomplish a song-holding capacity upgrade.

FIG. 5 is a flowchart illustrating processing in the computing device to utilize a configuration file.

FIG. 6 illustrates an example memory organization of a computing device.

FIG. 7 illustrates a failure/backup scenario.

DETAILED DESCRIPTION

It is desirable to securely configure a media player or other computing device via a service. Broadly speaking, in accordance with one aspect, the configuration operation is data-driven such that configuration data is provided to the computing device, as opposed to providing updated executable instructions to the computing device. A result of the configuration operation is to configure the operation of the computing device and/or configuring interoperation with the computing device.

FIG. 1 illustrates an architectural overview of a system including a computing device 102 and a service 104. The computing device 102 may be, for example, a portable media player. The service may include a client device 106 executing a local application and interoperating with server functionality 108, such as a content server 110 and a commerce server 112, via a network 114 such as the Internet.

As shown in FIG. 1, the computing device 102 is connectable to the service 104 via a connection 116. It is via the connection 116 that the service 104 provides configuration data to the computing device 102. Particular mechanisms for providing and utilizing the configuration data are described with reference to later figures. However, in general, the computing device 102 provides a unique identifier to the service 104. For example, the computing device 102 may be a mobile telephone and the unique identifier may be a well-known Electronic Serial Number (ESN) or International Mobile Equipment Identifier (IMEI), hard-coded into a mobile telephone and by which the mobile telephone is uniquely identified.

The service 104 provides a collection of configuration data (referred to here as a “file” for ease of reference, but not implying any particular organization of the configuration data) to the computing device 102. A digital signature is provided to the computing device 102 via the connection 116 in association with the configuration data file. The digital signature is usable to verify the authenticity of the configuration data, including that the configuration data has not been modified since being generated and digitally signed and that the configuration data has been properly generated for use by the computing device having the particular unique identifier.

FIG. 2 provides more detail of the interaction between the computing device 102 and the service 104. The arrow labeled 202 represents the computing device 102 providing the unique identifier to the service 104. At 204, processing associated with the service 104 creates the configuration file including data representing the desired configuration for the computing device 102. Furthermore, processing associated with the service 104 creates a digest of the configuration file. In addition, processing associated with the service 204 digitally signs the digest using a private key of a public/private key pair.

The arrow labeled 206 represents the service 104 providing the configuration file, and the associated digitally-signed digest, to the computing device 102. In some examples, there is processing associated with the service 104, prior to creating the configuration file or, at least, prior to providing the configuration file to the computing device 102, to verify entitlement by the computing device 102 to be configured in accordance with the configuration file.

Referring back to FIG. 1, this may include, for example, the local application on the client computing device 106 interacting with the commerce server 108 to accept payment in exchange for entitling the computing device 102 to be configured in accordance with the configuration file. For example, the configuration may include a feature upgrade. This is discussed in greater detail later, with reference to FIG. 4.

Returning now to FIG. 2, reference numeral 210 represents the computing device operating based on the stored configuration file. Furthermore, the arrow labeled 212 represents the computing device 102 providing the configuration file and associated unique identifier, along with the digitally-signed digest, back to the service 104. The reference numeral 214 represents the service 104 interoperating with the computing device 104 based on the configuration file provided from the computing device 102.

At 210 in FIG. 2, a condition of the computing device 102 operating based on the stored configuration file is that it is verified that the configuration file is authenticated as not being tampered with since being generated by processing associated with the service 104. Likewise, at 214 in FIG. 2, a condition of the service 104 interoperating with the computing device 102 based on the configuration file provided from the computing device 102 is that the configuration file is authenticated as not being tampered with since being generated by processing associated with the service 104.

As mentioned earlier, the configuration referred to in this patent application is data driven, and the configuration file includes an indication of the unique identifier associated with the computing device 102. In one example, the configuration file represents an XML-based file of key/value pairs, where one of the key/value pairs is the unique identifier associated with the computing device 102. The configuration file may be a binary-encoded file (such as a binary-encoded XML file.)

We now refer to FIG. 3-1, which describes processing associated with the service 104 and usable to create the signed configuration file, as well as processing usable to authenticate the absence of tampering with the configuration file. At step 302, a digest of the configuration file is generated (e.g., using a hash algorithm such as MD5 or SHA-1). At step 304, the digest is encrypted (e.g., using an algorithm such as the RSA algorithm) using a private key associated with the service 104. At step 306, the configuration file and the encrypted digest are provided to the computing device 102.

FIG. 3-2 describes processing associated with the computer device 102 and/or the service 104 (as described in greater detail below) to authenticate the absence of tampering with the configuration file. At step 312, a digest is created of the configuration file. At step 314, the public key (nominally corresponding to the private key associated with the service 104, used to create encrypt the digest) is applied to the signed digest. At step 316, the digest created at step 312 is compared to the result of step 314. If these are the same, then this is evidence not only that that the configuration file has not been tampered with since being signed, but also that the configuration file was signed using the private key to which the public key (step 314) corresponds.

We now describe a particular use of the FIG. 2 flow described above, with reference to FIG. 4 (and also to the architecture overview illustrated in FIG. 1). In the particular use, it is desired to configure the computing device 102 to be upgraded in a particular manner. For example, as referred to in the Background, the computing device 102 may be a portable media player (such as an iPod media player, from Apple Computer), and the service includes a client computing device operating a media management application (such as, for example, the iTunes program). Among other things, the media management application operates to download songs to the portable media player. The media management application operates in conjunction with a media store (e.g., in FIG. 1, the content server 110) to obtain songs and may also operate in conjunction with a commerce server (in FIG. 1, the commerce server 112) to process payment for the songs. In some examples, songs need not be obtained from the media store but may be obtained from other sources, such as from “ripping” a compact disc.

In the example, the portable media player computing device 102 is configured to have a particular initial song-holding capacity. For example, the portable media player may be configured to hold twenty-five songs. In particular, a default configuration may be hard-coded into the portable media player computing device 102 or the configuration file in the portable media player may include data representing that the capacity of the portable media player is twenty-five songs. Thus, for example, if the configuration file is an XML file, the “key” may be “song capacity” and the corresponding value may be “twenty-five.” (In some examples, in the absence of data in the configuration file representing the capacity, the portable media player operates according to a default configuration for the capacity). A new configuration file may be provided with data indicating a capacity higher than the initial (or default) song-holding capacity. Other features may be switched (typically on), such as enabling a feature such as access to music playlists on the portable media player computing device 102. For example, the “key” may be “playlist” and the “value” may be “off” or “on.” In one example, where a default configuration is hard-coded, the presence of a configuration file effectively overrides the default configuration.

Referring now specifically to FIG. 4, an example high-level processing flow is described, with respect to the service 104, to accomplish the song-holding capacity upgrade. At step 402, the upgrade process is initiated. For example, this may be a result of a user interacting with the media management application on the client computer 106. For example, the initiation may be a user activating a user interface item, such as clicking an icon.

In other examples, the user initiation may be as a result of interacting with an application on the computing device 102 to be upgraded. For example, the computing device 102 may be a mobile telephone that is configured to also operate as a portable media player. The user may interact with the portable media player application, which then wirelessly (e.g., via a cellular or other wireless connection) interacts with the service.

As another example, the initiation may be a result of the user attempting to perform an action for which the upgrade (or some other reconfiguration) is required. For example, the user may be attempting to download a twenty-sixth song into the portable media player computing device 102, where the data in the configuration is such that the song-holding capacity is twenty-five songs.

As yet another example, using the iPod/iTunes environment as an example, the upgrade may be initiated via a Music Store page accessed over the network using the iTunes desktop application. When the mobile telephone is connected to the desktop computer for the first time, the desktop application contacts the Music Store, which associates the phone with the user's Music Store account. When the user subsequently visits the Music Store, the Store can display a button or link that the user can click to initiate the upgrade for the phone.

At step 404, a commerce transaction is performed with respect to the upgrade. Thus, for example, the user may provide a credit card number or otherwise indicate payment for the upgrade. For example, the user may have “song credits” or a prepaid card. At step 408, the service 104 operates to create the configuration file (with respect to the unique ID) indicating the upgraded song-holding capacity (or other upgraded features) as well as generating a digital signature for the configuration file as shown, for example, in FIG. 3-1. In some examples, information may be provided to the user regarding the configuration change, such as a warning that a higher capacity flash memory may be required to actually hold the higher number of songs.

FIG. 5 is a flowchart illustrating processing in the computing device 102 to utilize the configuration file. The processing begins at step 502. At step 504, the configuration file is read. At step 506, the configuration file is authenticated as shown, for example, in FIG. 3-2. If the configuration file can be authenticated, then at step 508, the computing device 102 operates in accordance with the authenticated configuration file. If the configuration file cannot be authenticated, then at step 510, the computing device 102 retrieves a backup copy of the configuration file and digital certificate (discussed in greater detail later, with reference to FIGS. 6 and 7) or operates in accordance with a default configuration.

Thus, for example, the configuration file may indicate that the portable media player computing device 102 may hold fifty songs, instead of the default twenty-five songs. The computing device 102 operating in accordance with this indication would have the capability of accessing greater than twenty-five songs from its internal memory, up to the fifty songs allowed by the configuration.

The configuration file indicating the upgraded song-holding capacity may be provided back to the service 104, from the computing device 102 (for example, see arrow 212 in FIG. 2). Processing of the service 104 may operate according to the FIG. 5 flowchart, where the step 508 “operate in accordance with the authenticated configuration file” (i.e., interoperate with the computing device based on the configuration file, as denoted by reference numeral 214 in FIG. 2). Thus, for example, the service 104 may not download songs to the portable media player computing device 102 if doing so would cause the number of songs stored in the portable media player computing device 102 to go above the capacity indicated by the configuration file.

We now describe a failure/backup scenario, with reference to FIG. 7. As background, we first describe an example memory organization of a computing device 102, with reference to FIG. 6. The computing device 102 includes a microprocessor 602, with an interface 604 to the service 104. A flash memory 606 is accessible to the service 104 and the processor 602, but an internal persistent storage 608 is accessible only to the processor 602 (and not to the service 104). Typically, then, the configuration file is provided from the service 104 and stored onto the flash memory 606, accessible to the service 104.

We now turn to FIG. 7 to discuss the failure/backup scenario. At step 702, it is determined if the configuration file and digital signature are in the flash memory 606. If so, then at step 704, the configuration file and digital signature are processed from the flash memory 606 or a modified configuration file and digital signature are received from the service 104. At step 706, the configuration file and digital signature are backed up from the flash memory 606 to the internal persistent storage 608 of the computing device 102.

On the other hand, if at step 702 the configuration file and digital signature are not in the flash memory (for example, the flash memory may have been replaced), it is determined at step 708 whether the configuration file and digital signature are in the internal persistent storage 608. If so, then at step 710, the configuration file and digital signature are copied to the flash memory 606, and processing continues at step 704.

Otherwise, at step 712, a default configuration file and digital signature are obtained, or a service backed-up configuration file and digital signature are obtained (e.g., by referencing a purchase history to confirm that a user has actually paid for a particular configuration), and are stored into the flash memory 706. Then, processing continues at step 704.

While this invention has been described in terms of several embodiments, there are alterations, permutations, and equivalents, which fall within the scope of this invention. It should also be noted that there are many alternative ways of implementing the methods and apparatuses of the present invention. It is therefore intended that the following appended claims be interpreted as including all such alterations, permutations, and equivalents as fall within the true spirit and scope of the present invention.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US7417202Sep 2, 2005Aug 26, 2008White Electronic Designs CorporationSwitches and systems employing the same to enhance switch reliability and control
US7439465Jun 1, 2007Oct 21, 2008White Electronics Designs CorporationSwitch arrays and systems employing the same to enhance system reliability
US7565330Aug 22, 2006Jul 21, 2009Microsoft CorporationSecure online transactions using a captcha image as a watermark
US8073442 *Oct 5, 2005Dec 6, 2011Microsoft CorporationBinding a device to a provider
US8095113Feb 4, 2009Jan 10, 2012First Data CorporationOnetime passwords for smart chip cards
US8145914Dec 15, 2005Mar 27, 2012Microsoft CorporationClient-side CAPTCHA ceremony for user verification
US8214648Sep 9, 2010Jul 3, 2012Apple Inc.Secure configuration of a computing device
US8391487 *Jul 24, 2007Mar 5, 2013Cisco Technology, Inc.Secure remote configuration of device capabilities
US8631241Jun 22, 2012Jan 14, 2014Apple Inc.Secure configuration of computing device
US8782425Mar 7, 2012Jul 15, 2014Microsoft CorporationClient-side CAPTCHA ceremony for user verification
US20090031123 *Jul 24, 2007Jan 29, 2009Johannes Petrus KruysSecure Remote Configuration of Device Capabilities
Classifications
U.S. Classification713/176, 713/181
International ClassificationH04L9/00
Cooperative ClassificationG06Q20/3678, H04L63/123, H04L63/10
European ClassificationH04L63/12A, G06Q20/3678, H04L63/10
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